JP2002500542A - Shaving machine - Google Patents

Abstract

(57) [Summary] The inner cutting member (4) and the outer cutting member (5) of the shaving apparatus allow the inner cutting member to be driven to rotate relative to the outer cutting member, and the inner cutting member to the outer cutting member. On the other hand, it is supported by axial and radial support means. Then, the inner cutting member (4) is axially engaged with the outer cutting member (5), and the inner cutting member and the outer cutting member are provided with cutting blades that cooperate with each other to shear the whiskers. Further comprises a drive member (28) for driving the inner cutting member. To minimize frictional losses between the inner and outer cutting members during operation, the drive member (28) exerts no axial force on the inner cutting member (5) without rotating the inner cutting member. It is configured to transmit only the driving force.

Description

DETAILED DESCRIPTION OF THE INVENTION                                Shaving machine   The invention comprises at least one circular cutting unit, said circular cutting unit The outer cutting member and the inner cutting driven to rotate relative to the outer cutting member And an inner cutting member, wherein the inner cutting member has an axial support means and a radial support means. By supporting the outer cutting member with the inner cutting member relative to the outer cutting member. The inner cutting member and the outer cutting member cooperate with each other to form a beard. A shaver provided with a cutting blade for shearing, further comprising an inner cutting member. The present invention relates to a shaving apparatus provided with a motor having a driving member.   Such a shaving machine is disclosed in EP-A-0 0074 684 (EP -A2-0074684). For the correct cutting of the beard, A so-called cutting gap between the cooperating cutting blades of the inner and outer cutting members Needs to be as small as possible. Until today, to achieve this, the inside cut An axial spring force is applied to a driving member for rotationally driving the cutting member. This results in the inner cutting member also having the expected preload for the outer cutting member. So that the cutting blade of the inner cutting member is It was pressed with force. This is necessary because of the cutting forces that occur during beard cutting. This is because they work together to move them away from each other. Cutting member The overload prevents the gap between the cutting blades from becoming too large during cutting. However, the spring load also acts to relatively increase the friction between the cooperating cutting blades. . In order to reduce this friction, European Patent Application Publication No. 0074684 (EP) -A2-0074684) provides the inner cutting member with an axial support surface, It is proposed to cooperate with the axial support surface of the outer cutting member. in this case, The axial spring load of the drive member is applied to the outer cutting member via these axial support surfaces. It is believed that this minimizes the cutting gap. European patent FIG. 6 of Application Publication No. 0074684 (EP-A2-0074684). In some embodiments, the inner cutting member is interlocked with the outer cutting member. so It is engaged. By the way, the driving member is connected to the outer cutting member via the inner cutting member. The inner cutting member is securely engaged with the outer cutting member to also transmit the axial force. Not always. Axial forces also cause friction losses through the support surface, for the reason In particular, work where the frictional force of the cooperating cutting blade is relatively far away from the axis of rotation This causes torque loss.   The present invention reduces friction loss between the inner cutting member and the outer cutting member The purpose is to.   For this purpose, the shaving apparatus according to the invention is characterized in that, during operation, the drive member has an inner cutting member. Without any axial force acting on the inner cutting member. It is characterized in that it is configured to transmit only the rotation driving force.   With this arrangement, the drive member no longer exerts an axial force on the inner cutting member. Therefore, friction between the inner and outer cutting members is minimized. Therefore inside The side cutting member engages the outer cutting member in an interlock The engagement of the inner cutting member with the cutting member is no longer uncertain. Inside cut Minimizing friction loss between the cutting member and the outer cutting member is due to the rechargeable shaving. It is especially important in filters.   In addition, the cutting member driven by rotation includes the cutting member driven by reciprocating rotation. Needless to say.   In a preferred embodiment of the invention, the inner cutting member is provided with flexible support means relative to the outer cutting member. Support through. During beard cutting, the cutting force changes the inner cutting member to the outer cutting member This tends to cause a relative inclination. Support means need to resist this tilt . However, due to the flexible support means, self-positioning between the cutting members is achieved. Is done. An even distribution of load on the support surface of the support means occurs, resulting in Wear of the support surface can be made uniform. As a result, the service life of the shaver Life is extended.   In a preferred embodiment of the shaver having flexible support means as described above, the outer cutting member has a shaft. A central support shaft extending in the linear direction is provided, and the inner cutting member is journaled on this support shaft. Provide a center support bush with a bearing, and partially form the support shaft with a flexible pin can do. The flexible pin makes the inner cutting member and the outer cutting member On the other hand, it can be adjusted relatively optimally. Therefore, the load on the axial support Can be Therefore, avoid concentration of load around the support surface Can be. Also, the contact between the cooperating cutting elements becomes more uniform. Flexible The sex pins can consist of small diameter pins.   In another preferred embodiment of the shaving apparatus according to the present invention, the axial driving member is provided with a spring in an axial direction. Along with urging, the driving member is provided with an axial support surface to apply an outward force to the outer cutting mechanism. So that it acts only on members. This results in the inner cutting member from the drive member. The cutting unit can be pushed elastically as a whole without applying axial force to the bar And swingable. Pushable and swingable of such a cutting unit Possibilities can be useful to better fit the cutting unit to the skin during shaving is there.   Hereinafter, embodiments of the present invention will be described in more detail based on examples shown in the drawings,   FIG. 1 is a perspective view of a shaving apparatus including three shaving units,   FIG. 2 shows a shaving unit of the shaving apparatus shown in FIG. 1 according to the first embodiment of the present invention. Cross-sectional view of a shaving unit composed of   FIG. 3 shows a shaving unit of the shaving apparatus shown in FIG. 1 according to a second embodiment of the present invention. Cross-sectional view of a shaving unit composed of   FIG. 4 shows details of the support means between the cutting members of the shaving unit shown in FIG. FIG.   1 comprises a housing 1 in which a holder 2 is mounted. It is provided detachably or rotatably. The holder has three cutting units 3 And these cutting units are also referred to as shaving units.   The cutting unit 3 of the first embodiment shown in FIG. The beard cutting member 5 comprises an inner beard cutting member and an outer beard cutting member. To be relatively rotatable. Drive the inner beard cutting member This is done by the motor 40 housed in the ring.   The outer beard cutting member 4 is shaped like a circular cap and has a circular groove 6 formed therein. . Then, a plurality of slit whiskers enter the bottom wall and the upright side wall of the outer beard cutting member. A hole 7 is formed and these beard entry holes extend radially approximately through the center of the cap. Let The thin piece 8 is extended between the whiskers. Center support shuff on outer beard cutting member 4 , And extend in the axial direction. This support shaft is The pin 11 is fitted on the protrusion 10 via the clamp ring 12. You.   The inner beard cutting member 5 includes a central portion 13 and a cutting element 14 provided around the central portion. It consists of A cutting blade 15 is provided at the free ends of these cutting elements, and the cutting blade is thin. What cooperates with the cutting blade 16 of the piece 11 to shear the beard projecting from the beard entrance hole 7 And The center part 13 is attached to the plate 17 and the plate has an annular center connecting member. A bus 18 is provided. The connecting member is supported by a support bush 19 and an outer ring 20. Constitute. This ring is connected via spokes 21 to a support bush.   The inner beard cutting member 5 can rotate relative to the outer beard cutting member 4. You. For this purpose, a support bush 19 is journaled on the support shaft 9. You. The radial support means comprises a support surface for each of the support bush 19 and the projection 10. 22 and 23. The inner beard cutting member 5 is opposed to the outer beard cutting member 4. Then, they are engaged with a slight gap, preferably a gap of 2 to 10 μm. For this purpose Therefore, the support bush 19 is provided with an inwardly directed collar 24, which is provided with an axial support. The holding surface 25 is set, and this axial supporting surface is set to the axial supporting surface of the clamp ring 12. Work with 26. Also, the cutting blades 15 and 16 can be considered as co-supporting surfaces. Wear.   The rotation drive output shaft 27 is provided with a spring load connection shaft 28. The spring 29 is a connecting shaft 28 To the cutting unit 4. Between the spokes 21 of the connecting member 18 on the connecting shaft Are provided. This is because the inner beard cutting member 5 is rotated or vibrated relative to the outer beard cutting member 4. Turned. The connecting shaft 28 is further provided with an axial support surface 32, which is Abut on the axial support surface 32 of the housing 11. Thus the spring load support shaft is outside Acts exclusively on beard cutting member 4 and acts on inner beard cutting member 5. And not.   As a result, the cutting unit can be pushed elastically as a whole. This elastic It can be realized by means other than the spring load connecting shaft as well as it can. For example, one end of the elastic element is fixed to the housing and the other end is Resiliently engage the lower edge of the side beard cutting member 4   In the example of FIG. 3, the support hand of the inner beard cutting member 5 with respect to the outer beard cutting member 4 is shown. The steps are flexible support means. For this purpose, the diameter of the pin 111 It is relatively smaller than the inner diameter of the 19 collar 24. Inside the outer beard cutting member 4 A knob 112 is provided on the support shaft 9 to connect the side beard cutting member 5 in the axial direction. This is used as a substitute for the clamp ring 12 as shown in FIG. Off during shaving A force acts on the cutting element 14 and consequently the axial support surface of the support shaft, in particular A concentrated peripheral load acts on the axial support surface of the knob 112. Thin flexible pi The cooperating axial support surface 113 of the knob 112 and the collar 24 due to the , 114 better interengage, thereby evenly distributing the load acting on the support means. can do. This condition is shown in FIG. 4 where the slope is exaggerated for clarity. Shown.

Claims (1)

[Claims] 1. At least one circular cutting unit, wherein said circular cutting unit is externally cut   A cutting member and an inner cutting member rotationally driven relative to the outer cutting member   And the inner cutting member is supported by the axial support means and the radial support means.   And support the inner cutting member with respect to the outer cutting member.   And the inner and outer cutting members cooperate with each other to form a beard.   A shaving apparatus provided with a cutting blade for shearing, further comprising an inner cutting member.   A shaving apparatus comprising a motor having a driving member for     During operation, the drive member exerts any axial force on the inner cutting member ゛.   Without transmitting, only the inner cutting member rotation driving force is transmitted to the inner cutting member.   A shaving apparatus characterized by having such a configuration. 2. The inner cutting member is supported to the outer cutting member via flexible support means.   The shaving apparatus according to claim 1, wherein the shaving apparatus is held. 3. The outer cutting member is provided with a central support shaft extending in the axial direction, and the inner cutting member   A member is provided with a center support bushing journal bearing on the support shaft,   3. A beard according to claim 2, wherein the shaft is formed in part by a flexible pin.   Shaver. 4. The axial drive member is spring-biased in the axial direction, and the drive member is   Direction support surface so that an outward force acts only on the outer cutting member.   The shaving apparatus according to claim 1, wherein the shaving apparatus is used. 5. The free end of the support shaft of the outer cutting member is coaxial with the axial support surface of the drive member.   5. An arrangement according to claim 3, further comprising a working axial support surface.   Shaver.